WO2018205893A1 - Combinaison de natation et de plongée - Google Patents

Combinaison de natation et de plongée Download PDF

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Publication number
WO2018205893A1
WO2018205893A1 PCT/CN2018/085759 CN2018085759W WO2018205893A1 WO 2018205893 A1 WO2018205893 A1 WO 2018205893A1 CN 2018085759 W CN2018085759 W CN 2018085759W WO 2018205893 A1 WO2018205893 A1 WO 2018205893A1
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WO
WIPO (PCT)
Prior art keywords
swimmer
swimming
tail fin
fixed
bionic
Prior art date
Application number
PCT/CN2018/085759
Other languages
English (en)
Chinese (zh)
Inventor
朱光
Original Assignee
朱光
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from CN201710324249.1A external-priority patent/CN106956756B/zh
Priority claimed from CN201711133094.XA external-priority patent/CN107745791A/zh
Application filed by 朱光 filed Critical 朱光
Publication of WO2018205893A1 publication Critical patent/WO2018205893A1/fr

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63CLAUNCHING, HAULING-OUT, OR DRY-DOCKING OF VESSELS; LIFE-SAVING IN WATER; EQUIPMENT FOR DWELLING OR WORKING UNDER WATER; MEANS FOR SALVAGING OR SEARCHING FOR UNDERWATER OBJECTS
    • B63C11/00Equipment for dwelling or working underwater; Means for searching for underwater objects
    • B63C11/02Divers' equipment
    • B63C11/04Resilient suits
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63CLAUNCHING, HAULING-OUT, OR DRY-DOCKING OF VESSELS; LIFE-SAVING IN WATER; EQUIPMENT FOR DWELLING OR WORKING UNDER WATER; MEANS FOR SALVAGING OR SEARCHING FOR UNDERWATER OBJECTS
    • B63C11/00Equipment for dwelling or working underwater; Means for searching for underwater objects
    • B63C11/02Divers' equipment
    • B63C11/10Rigid suits

Definitions

  • the invention relates to the swimming equipment and the diving equipment industry, in particular to a swimming diving dual-purpose suit, which is used for swimming and diving sports, and is particularly suitable for long-distance high-speed cruising in a relatively wide water area.
  • the existing diving suits are designed according to the shape characteristics of the human body. Although they are better matched with the human body shape, they are more comfortable to wear, but they do not conform to the flow in the water.
  • the principle of minimum linear forward resistance is quite different from the shape of whales, dolphins, sharks, tuna or swordfish; secondly, the propelling water-making tool, that is, the pedal's propulsion efficiency is not high, although the feet are used.
  • Synchronized watering of the two-legged single-handle is more efficient than the double-footed double-footed double-footed, but there is a big gap compared to the tail fins of whales, dolphins, sharks, tuna or swordfish; It is the bones and muscles of human beings that exist to adapt to land walking and running. The bones and muscles of whales, dolphins, sharks, tuna or swordfish exist to adapt to the efficient swimming in the water, so whether they are swimming or not. In terms of form and muscle strength, humans are far from losing to the latter.
  • the existing diving suits are designed according to the shape characteristics of the human body, and do not meet the principle of the smallest resistance to the streamlined movement in the water.
  • the inventor carefully observed and studied the body shape of whales, dolphins, sharks, tuna or swordfish in the water, and compared the difference between the two to provide a swimming diving suit, imitating whales, dolphins, sharks.
  • the shape and tail fin of tuna or swordfish combined with the characteristics of human body, through scientific and rational use of ergonomics, to achieve the least resistance to travel in the water, thereby improving the speed of swimming and effectively reducing the fatigue caused by long swimming, Maximize the swimmer's potential to travel in the water, and then achieve the purpose of long-distance high-speed cruising.
  • a swimming diving suit comprising a fixed shape cover and a flexible swimming trunk, characterized in that: the fixed shape cover covers the swimmer from the head to the trunk, and the flexible swimming trunk wraps the swimmer from the trunk to the trunk.
  • the foot, the fixed shape cover and the flexible swim trunk are coupled into a one-piece structure at the swimmer's torso.
  • the fixed shape cover covers at least one of the front and rear sides of the swimmer's back or chest and abdomen with a breathing tube.
  • the breathing tube is hinged to the fixed shape cover and is provided with a breathing tube elastic member for standing upright on the fixed shape cover.
  • the breathing tube is hinged to the fixed shape cover body by means of a breathing tube hinge structure, and a breathing tube elastic element is arranged between the breathing tube and the fixed shape cover body to apply an elastic force to the breathing tube, so that the breathing tube stands vertically in a fixed shape cover Above the body, when the swimmer sneaks into the water, the breathing tube falls backwards against the elastic force of the elastic element of the breathing tube under the action of the flushing force of the water flowing backward, and is close to the fixed shape cover body, The swimming resistance is reduced; when the swimmer returns to the water surface, the breathing tube returns to the vertical state under the elastic force of the elastic element of the breathing tube.
  • the breathing tube and the breathing tube elastic element hinged on the fixed shape cover body replace the self-contained breathing tube with a moderate elasticity, and the breathing tube elastic element and the breathing tube hinge structure are omitted, when the flushing force of the water flow backward is sufficiently large
  • the snorkel collapses backward against the elastic force of the breathing tube itself and is attached to the fixed shape cover to reduce the swimming resistance.
  • the scouring force of the water flow backward decreases, the breathing tube is Under the action of its own elastic force, the vertical state is restored.
  • the fixed shape cover body is provided with a buffer device or a small air bag at the front end of the swimmer's head portion, and the fixed shape cover body is lined with the cover inner cushioning material.
  • the cushioning device has a columnar shape resembling a dolphin snout, and is a hollow rod antenna-shaped buffer cylinder including two or more stages, the outer cylinder cylinder of the rod antenna cushion cylinder is fixed to the fixed shape cover. Covering the front end of the swimmer's head portion, but the final rear support base of the whip antenna-shaped cushioning cylinder is a portion of the fixed-shaped cover covering the swimmer's shoulders, that is, when the swimmer swims forward, the buffer cylinder is The forward support force comes from the swimmer's shoulders rather than the swimmer's head. Therefore, when the front of the buffer cylinder is impacted, the shocking impact force is transmitted to the swimmer's shoulders instead of the top of the head.
  • the swimmer's head is The cushioning material of the inner lining is in a suspended state; the rod antenna-shaped buffer cylinder is extended forward and forward by the large and small stages of the piston cylinders which are nested one by one, and the outer cylinder tube and the cylinders of the various stages are made of materials.
  • the rod antenna-shaped buffer cylinder has a self-resetting buffer spring inside, and the hollow chamber of the buffer device is filled with buffer gas or buffer liquid, when When the hollow cavity of the punching device is filled with the buffer liquid, at least one drain hole is opened in the wall of the corresponding cavity of the corresponding buffer device, when the swimmer collides with the reef, the vessel or the large marine animal in front,
  • the rod antenna buffer cylinder of the buffer device automatically contracts and compresses the buffer gas or buffer liquid inside thereof, and the self-resetting buffer spring to mitigate the impact caused by the collision, and the buffer chamber is filled with a buffer liquid.
  • the leakage hole functions as a buffer damping when the pressure is released; when the collision is too strong, the small airbag is triggered to further buffer; the fixed shape cover is internally lined with The cushioning material further protects the swimmer's head, shoulders, and spine to minimize damage from impact, including but not limited to sponge, rubber, silicone or soft plastic.
  • the tie rod antenna-shaped buffer cylinder can play the role of drainage, splitting and diversion of the cone-shaped shroud similar to the front end of the fighter jet, and reduce the resistance of the swimmer to advance, and at the same time, the front small and the large ones contain two or more levels.
  • the rod antenna buffer cylinder can be elongated or shortened like a rod antenna. The swimmer adjusts the extension length of the rod antenna buffer cylinder to balance its weight, match and adapt to the fluctuation characteristics of its swinging motion, and eliminate the swing bionics. Resonance harmonics that may be generated when the caudal fin advances to maximize forward efficiency.
  • the front end of the rod antenna-shaped buffer cylinder is a final-stage piston cylinder, and the front end thereof is an elastic buffer body made of elastic rubber, and a screw hole or a plug hole is formed at a front end of the elastic buffer body, and a flashlight, a radar probe, and the like can be installed.
  • Different functional components of a sonar probe, a shark cone or a common diversion cone which is filled with shark chemicals or small high-voltage electric pulse devices to drive sharks, killer whales or chemicals through chemical or high-voltage electrical impulses.
  • a large underwater predator of a crocodile A large underwater predator of a crocodile.
  • the shark cone cone When the shark cone cone is filled with a shark shark chemical, the shark cone is a syringe-type structure, and the piston end is installed and fixed at the foremost end of the rod antenna buffer cylinder.
  • the front end of the outer tube In the threaded hole or the insertion hole, the front end of the outer tube has a pinhole and is sharp and hard, and the shark shark chemical is loaded between the outer tube and the piston, and the swimmer hits a large underwater predator of shark, killer whale or crocodile.
  • the shark shark chemical agent was quickly injected into the large predator of sharks, killer whales or crocodiles under pressure and forced to leave.
  • At least one air chamber or liquid chamber is disposed, and the air chamber or the liquid chamber communicates with at least one pressing device, and the pressing device includes a pressure pump, Pressurized power source, pressurized pipeline.
  • the air chamber is an inflatable air bag
  • the liquid chamber is a liquid-fillable liquid bag
  • the manufacturing materials of the air chamber and the liquid chamber include but are not limited to elastic rubber, elastic plastic or elastic silicone
  • the pressing device further includes a pressure limiting valve, a pressurized pipe, a pressure control circuit board
  • the pressure power source includes but is not limited to an electric energy driven motor or a small internal combustion engine
  • the pressurized power source supplies power to the pressure pump to drive the pressure pump to the air chamber
  • the liquid chamber is filled with gas or liquid to prevent the water from entering the sealing of the fixed shape cover and the flexible swimming trunk, and at the same time, the shape of the swimmer wearing the fixed shape cover and the flexible swimming trunk is closer to the streamline shape.
  • the pump can also work in reverse to draw out the gas or liquid in the air chamber or liquid chamber for easy storage.
  • the gas chamber and the liquid chamber can also share one chamber, and the corresponding pressure pump is a gas and liquid dual-purpose pump.
  • the pressure pump When the gas and liquid suction ports of the pressure pump are above the water surface, the pressure pump pumps in the gas. When the suction port of the pressure pump is below the water surface, the pressure pump pumps in the liquid.
  • the fixed shape cover is provided with a visual information collecting device including at least one transparent window disposed near the swimmer's eye and a front camera disposed at the front end of the fixed shape cover.
  • the front camera is disposed at the front end of the dovetail shape of the fixed shape cover, and the visual information collecting device further comprises a high position monitoring camera located at the top of the breathing tube, and the collected image is transmitted in real time through wired or wireless manner. Go to the small LCD screen in front of the swimmer's eyes.
  • the transparent window comprises a multi-faceted prism or a lens of at least one of a convex lens, a concave lens and a flat mirror, so that the swimmer can observe the lower, front, rear, left and right sides of the water at any time.
  • the transparent window under the fixed shape cover of the swimming diving suit allows the swimmer to observe the underwater position.
  • the fixed shape cover is further provided with an audible information collecting device including a high position monitoring microphone at the top of the breathing tube and a sonar probe disposed on the front end of the fixed shape cover.
  • the swimmer can directly observe the underwater situation under the body, and observe the situation in front of the water through the front camera and the flashlight, and can also monitor the situation above the water surface through the high-level surveillance camera and the high-level monitor microphone;
  • the nano-probe provides the swimmer with obstacle information and underwater terrain information.
  • the high-level surveillance camera is supplemented with at least one light source. It can also observe the situation above the water surface at night and play a safety warning on the nearby vessels.
  • the color of the active light source includes, but is not limited to, red, white, blue or yellow.
  • the illumination mode is stroboscopic or continuous illumination, and the high-level surveillance camera can also add night vision function.
  • a monitor earphone is arranged near the ear of the swimmer to receive audio information from the high-level monitor microphone; the small liquid crystal display and the monitor earphone can also be integrated into one, and the shape of the glasses is made, and the information is transmitted by wire or wirelessly for the swimmer. Wear it.
  • the visual information collecting device and the auditory information collecting device may further add a wireless communication device, and set a call microphone near the swimmer mouth and use the monitor earphone and the small liquid crystal display as the information sending end and the information of the wireless communication device respectively.
  • Speed display GPS satellite positioning, GPS satellite navigation, cruise route planning management functions.
  • the tail end of the flexible swimming trunk is provided with a bionic tail fin sealing ring, and the bionic tail fin sealing ring is included in a corresponding ring groove of the bionic tail fin fixing rod of the bionic tail fin, and the bionic tail fin includes a bionic tail fin body and a bionic tail fin fixing rod.
  • the bionic tail fin fixing rod is fixed between the swimmer's legs or both feet.
  • the bionic tail fin sealing ring functions as a sealing waterproof; the bionic tail fin fixing rod and the bionic tail fin body are longitudinally arranged in front and rear and connected integrally.
  • the bionic tail fin body has a rigid skeleton inside and a streamlined flexible skin.
  • the rigid frame may be made of a rigid material, including but not limited to engineering plastics, glass reinforced plastics, carbon fiber, steel, aluminum alloys, titanium alloys. , glass, ceramic, wood or nylon, the flexible skin may be selected from elastic materials, including but not limited to high-elastic rubber, silicone rubber, flexible plastic or flexible polyurethane, the structural rigidity of the rigid skeleton is step stiffness or The form of the gradient stiffness, that is, the structural rigidity of the rigid skeleton from the front to the rear along the direction in which the swimmer advances gradually decreases or the structural rigidity of the rigid skeleton from the outer side of the bionic fin body to the inner side of the bionic tail fin body, that is, the longitudinal axis of the bionic tail fin fixed rod Gradually lowering, similar to the caudal fin skeleton structure of fish in nature, the distal end of the rigid skeleton is shaped as a fork to compensate for the
  • the bionic tail fin body is wrapped with an elastic thin sleeve or an elastic film
  • the material of the elastic thin sleeve or elastic film includes, but is not limited to, elastic rubber or elastic silicone to reduce the surface unevenness of the bionic tail fin body and the bionic tail fin fixing rod, thereby reducing the resistance during swimming.
  • the bionic fin fin body may also be formed in the form of front and rear sections, the front section is a rigid material, the rear section is a streamlined elastic material or a flexible material, and the front and rear sections are a unitary structure.
  • the bionic tail fin body may also be a non-skinned structure, that is, directly made of FRP, carbon fiber, steel, aluminum alloy, titanium alloy, glass, ceramic, wood, engineering plastic, nylon, high elastic rubber or polyurethane;
  • the bionic tail fin body can be made of the same material or different materials.
  • the fixed-shaped cover body is flat and has a small front and a large size, that is, a flat shape in the horizontal direction and a small front and rear large shape, and the whole is flattened and tapered, so as to minimize the resistance of the swimmer's front end and simultaneously reduce
  • the small swimmer swings up and down the upper body of the swimmer caused by the body of the bionic fin;
  • the flexible swimming trunk is large and small in front, and
  • the lower section is a single cylinder or a double cylinder, and presents a flat shape in the vertical direction near the swimmer's foot.
  • the spatial shape of the first half of the fixed shape cover is similar to the spatial shape of the dolphin from the snout to the torso or similar to the shark from the mouth to the torso
  • the spatial shape of the portion; the fixed shape cover is fixed in shape, the flexible swimming trunk is variable in shape; and the fixed shape cover is disposed at least one independent mask that can be opened near the mouth of the swimmer.
  • the fixed shape cover and the flexible swim trunk are coupled to the body of the swimmer as a unitary structure by the fixed shape cover joint interface of the fixed shape cover and the flexible swim trunk joint interface of the flexible swim trunk.
  • the fixed shape cover is divided into front and rear halves on the sides of the swimmer's torso.
  • the waterproof zipper folds the front and rear halves together and connects them together. Before the penetration, the front and rear halves can be properly extended forward and backward.
  • the fixed shape cover can also be divided into left and right halves in the rear part of the articulated structure of the breathing tube.
  • the waterproof zipper also closes the left and right halves and connects them together. The left and right halves can be separated before being inserted. Properly extend to the left and right to facilitate penetration.
  • the coupling manner of the split fixed shape cover and the flexible swimming trunk includes, but is not limited to, a coupling manner of a waterproof zipper coupling or a fastening manner; the fixed shape cover and the flexible swimming trunk may also be a one-piece structure, correspondingly The swimmer's torso portion is provided with at least one waterproof zipper extending from top to bottom through the fixed shape cover and the flexible swimming trunk to facilitate the swimmer to penetrate.
  • the fixed shape cover is cast from a hard, rigid material, including but not limited to engineering plastics, fiberglass, carbon fiber, steel, aluminum alloy, titanium alloy, glass or ceramic; the flexible swimming trunk is bendable
  • the flexible and elastic material is made of a flexible material, and the fabric of the flexible swimming trunk is a low flow resistance flexible fabric.
  • the fixed shape cover and the flexible swimming trunks When the fixed shape cover and the flexible swimming trunks are integrated, they have a streamlined shape similar to a whale body shape, a dolphin body shape, a shark body shape, a tuna body shape or a swordfish shape, and thus have a low forward resistance, thereby helping to swim.
  • the person can improve the speed of swimming and effectively reduce the fatigue caused by long-term swimming, thereby achieving the purpose of long-distance high-speed cruising.
  • At least one of the outer surface of the swimming diving suit is coated with a reflective paint or a reflective sticker, so that the swimmer can find the light of the boat or the boat during the night cruise and avoid it in time to improve the safety of the swimmer's night cruise.
  • the independent mask can be conveniently opened, so that the swimmer can quickly breathe a large amount of fresh air without taking off the fixed shape cover after landing, and more than one hinge phase between the independent mask and the fixed shape cover.
  • the rubber belt is provided with a rubber sealing ring on the ring belt which is in contact with the fixed shape cover body to prevent water penetration.
  • the fixed shape cover covers the swimmer's arms and hands with a flexible material of variable shape.
  • the arms and hands of the swimmer are also covered by a flexible material that is bendable and elastic, and the flexible material of the fixed shape cover can be used with the flexible swimming trunks.
  • the flexible materials are the same or different, that is, the fixed shape cover further increases the covering range, and extends to the shape of the hand of the swimmer's hands correspondingly to the shape of the handcuff, and the arms of the fixed shape cover are extended to the swimmer's arms. Out of the exit.
  • the flexible swimming trunks can also further increase the covering range upwards, and the bionic tail fin fixing rods including the swimmer's arms and hands from the neck to the feet are made of a flexible material which is bendable and elastic and elastic.
  • Coat that is, the structure of the one-piece swimsuit, correspondingly the fixed shape cover is placed outside the flexible swimming trunk covering the upper body of the swimmer, and is connected with the flexible swimming trunk at the boundary of the fixed shape cover And sealed and fixed.
  • the breathing tube is a two-channel structure comprising an inspiratory channel that can only be inhaled and an expiratory channel that can only be inflated, and the breathing tube is connected with a breathing connecting tube that extends to the mouth of the swimmer.
  • the suction passage is adjacent to the outer nozzle, and is provided with a float type water stop valve that closes the suction passage under the buoyancy of water and an intake check valve that can only be opened inward, and the exhalation passage is close to the outer tube.
  • An outlet check valve that can only be opened outward is provided near the mouth; the breathing tube is connected inwardly with a breathing connecting pipe extending to the mouth of the swimmer, the inhaling passage is inwardly close to one end of the breathing connecting pipe or the breathing connecting pipe.
  • a labyrinth seal structure with a submerged bend structure similar to that of a toilet bowl or a toilet.
  • the labyrinth seal structure is similar to the engine chamber and the crankcase is ventilated.
  • a labyrinth channel structure connected by a pipe the submerged water structure is coupled with a small drain device including a water sensor, a drain control circuit board, a drainage power source, a drain pump, a drain pipe, and the water containing sensor includes However, it is not limited to detecting a sensor for storing water in a submerged bend structure or a pressure sensor for detecting pressure, the drain control circuit board comprising a printed circuit board, a resistor, a capacitor, an integrated circuit chip,
  • the hydrodynamic source includes, but is not limited to, an electric energy driven electric motor or a small internal combustion engine.
  • the drainage control circuit board drives the drainage pump to work by means of the drainage power source, and the submerged water bend
  • the accumulated water in the structure is discharged through the drainage pipe; the breathing pipe is pressed back to the swimmer's back or the chest and abdomen, and the inlet of the suction passage is pressed tightly and closed to prevent the swimmer from drowning; the drainage control circuit
  • the panel is connected with a manually operated button to facilitate the swimmer to manually operate the small drain to drain the stagnant water in the submerged bend structure; the small drain can be placed adjacent the breathing tube at the swimmer's neck.
  • the float type water stop valve closes the air suction passage under the buoyancy of water; the air outlet check valve can only be opened outward to prevent the swimmer from inhaling water when diving into the water in.
  • the breathing tube of the back When the swimmer adopts the prone swimming posture, the breathing tube of the back is placed in a vertical state, and the breathing tube of the chest and abdomen is gathered to be completely pressed against the surface of the fixed shape cover; when the swimmer adopts the supine swimming posture, The snorkel of the chest and abdomen is in a vertical state, and the breathing tube of the back is gathered to be completely pressed against the surface of the fixed shape cover.
  • the breathing tube is provided with a snorkel automatic retracting mechanism
  • the snorkel automatic retracting mechanism comprises a retracting control circuit board, a retracting control power source, and a retracting control execution component.
  • the snorkel automatic retracting mechanism vertically surrounds the snorkel on the fixed shape cover or is pressed backward to be pressed against the swimmer's back or the chest and abdomen, and the snorkel automatic retracting mechanism further includes retracting and retracting Controlling the sensor
  • the retractable control sensor includes, but is not limited to, a water sensing sensor that detects whether the breathing tube is above or below the water surface or a pressure sensor that detects a water pressure value near the mouth of the breathing tube
  • the retractable control circuit board includes printing a circuit board, a resistor, a capacitor, an integrated circuit chip
  • the retractable control power source includes but is not limited to an electric energy driven electric motor, a small internal combustion engine
  • the retracting control execution component includes, but is not limited to, converting a rotary motion of the electric motor or the engine into
  • the control breathing tube rotates with the breathing tube hinge structure as a rotating shaft, and can stand vertically on the fixed shape cover body or fall backward and press the screw drive mechanism and the crank slider mechanism pressed against the swimmer's back or chest
  • the retractable control sensor detects a change in water content or an increase in water pressure
  • the retractable control circuit board drives the retractable control execution unit to operate by the retractable control power source, and the breathing tube is directed After being laid down, the nozzle of the breathing tube is pressed against the fixed shape cover to reduce the swimming resistance and prevent the swimmer from drowning;
  • the retractable control sensor Detecting a change in water loss or a decrease in water pressure
  • the retractable control circuit board drives the retraction control execution unit by means of the retractable control power source to restore the snorkel to a vertical state, and the swimmer can smoothly pass the snorkel Breathe.
  • the fixed shape cover covers the swimmer's back or the chest and abdomen at least one oxygen cylinder or at least one power boosting unit, and the power boosting unit includes a boosting force source and a booster.
  • the power boosting unit further includes a boost control circuit board that controls the booster operation by the boosting force source.
  • the booster force source includes, but is not limited to, an engine or an electrically powered electric motor, including but not limited to a propeller booster or a jet booster for providing a swimmer with an advancing assist thrust, the jet
  • the booster generates propulsive force by injecting a fluid;
  • the fixed shape cover body is provided with a corresponding interface or hanging point at the portion of the oxygen cylinder or the power boosting unit, when the oxygen cylinder or the power boosting unit is attached
  • the driving force source is a small internal combustion engine, the intake pipe and the exhaust pipe are arranged parallel to the breathing pipe.
  • An emergency feeding device is connected to the breathing tube or the respiratory connecting tube, and the emergency feeding device generates oxygen or air by a chemical reaction method or a physical air pump in an emergency situation to supply the swimmer to the oxygen in an emergency situation. Need.
  • the swimmers can be attracted to each other when the palms of the hands are opposite to each other.
  • the swimmers can be horizontally and laterally opposed to each other or can be respectively attracted to the left and right sides of the rod antenna-shaped buffer cylinder having magnetic permeability;
  • the arms are naturally placed on both sides of the hip joint and the palms of both hands are facing the hip joint. Both hands can be attracted to both sides of the hip joint.
  • the swimmer's arms can easily maintain the following four minimum resistance postures by means of the two magnetic materials on the palm of the hand and the two magnetic substances on both sides of the hip joint. : Stretch the arms as far as possible to the top of the head and pull the palms of the hands together. Extend the arms as far as possible toward the top of the head and pull the hands horizontally sideways. The arms should extend forward in the direction of the head and the hands should be horizontally horizontal. The two sides are respectively sucked on the left and right sides of the rod antenna buffer cylinder with magnetic permeability, or the arms are naturally suspended on both sides of the hip joint and the palms of both hands face the hip joint and are sucked on both sides of the hip joint.
  • the lower section of the flexible swimming trunk is a single cylinder or a double cylinder, and the tail end of the lower section of the single tubular flexible swimming trunk is reduced to a bionic tail fin sealing ring, and the lower two sections of the double tubular flexible swimming trunking
  • the tail ends are each reduced to a bionic tail fin sealing ring, and the bionic tail fin fixing rod of the lower end of the lower portion of the single tubular flexible swimming trunk is abutted between the swimmer's legs or feet, the double barrel
  • the bionic tail fin fixing rods of the lower end of the shape of the flexible swimming trunks are respectively fixed to the swimmer's legs or feet, and the single bionic tail fin body is connected to the single pole of the bionic tail fin fixing rod.
  • the rear end of the bionic fin seal ring, the bionic tail fin body split into the left and right halves respectively connected to the pair of bionic tail fin fixing rods respectively pass through the two tail ends of the pair of bionic tail fin seals.
  • the shape of the bionic tail fin body includes, but is not limited to, a dolphin caudal fin, a whale-like fin fin, a shark-like fin fin, an imitation tuna caudal fin or a flagfish tail fin shape, and the shape of the bionic tail fin body includes but is not limited to a crescent type, Deep-fork, triangular or semi-circular; to meet the different needs of different types of swimmers of different genders, different age levels or different strength levels and different swimming movement characteristics.
  • the spatial shape of the bionic tail fin fixing rod includes, but is not limited to, an inline shape, an L shape, or a zigzag shape.
  • the central axis of the bionic tail fin fixing rod may be coaxial with the longitudinal symmetry center line of the swimming diving suit, that is, the bionic tail fin fixing rod is arranged in a line with the longitudinal symmetric center line of the swimming diving suit, or
  • the different axes, that is, the central axes of the bionic tail fin fixing rods are arranged in an L-shape or a zigzag arrangement with the longitudinal symmetry center line of the swimming diving suit, and the L-shaped arrangement is arranged at an obtuse angle, and the L-shape is an obtuse-angled shape.
  • the obtuse angle includes an obtuse angle of less than 180 degrees, and also includes an obtuse angle of more than 180 degrees; the swimmer can freely select according to the swimming body characteristics during swimming or diving to maximize the promotion efficiency; the bionic tail fin fixed rod
  • the material can be made of materials with moderate elasticity, and can be oscillated with the bionic tail fin body at a moderate angle. Specifically, but not limited to engineering plastics, FRP, carbon fiber, thin-walled steel, aluminum alloy, titanium alloy, thin-walled copper. Alloy, ceramic, tempered glass, bamboo, wood or nylon, lightweight and high strength to meet long-term, heavy-duty work Requirements.
  • the double-bionic bionic tail fin fixing rod, the left and right double rods are parallel to each other and close together with each other, and are attracted to each other by a permanent magnet force or an electromagnetic force, and the corresponding left side bionic tail fin fixing rod and the right side bionic tail fin are fixed.
  • the bonding surfaces of the rods are respectively provided with permanent magnets, magnetizing bodies or electromagnetic coils controlled by the pair, and the bonding surfaces of the bionic tail fin fixing rods on the left side and the bionic tail fin fixing rods on the right side are respectively provided with each other. Pair of locating pins and locating pin holes, the locating pins include tapered pins, cylindrical pins, hemispherical pins, elastic locating pins or elastic locking pins.
  • the self-contained double-bar bionic tail fin fixing rod can realize fast and convenient through the pair of permanent magnets, the magnetizer or the electromagnetic coil and the pair of positioning pins and positioning pin holes between the double-rod abutting faces.
  • the mutual positioning, close fitting and separation of each other greatly facilitates the free switching between swimmers, swimming and walking, and indirectly increases the response options of swimmers in the event of sudden danger in the water, greatly improving the The emergency self-rescue ability of swimmers in distress.
  • the bionic tail fin fixing rod of the single rod is fixed between the swimmer's legs or feet by the bionic tail fin fixing rod binding structure, and the double rod bionic tail fin fixing rods are respectively bound by the respective fixed one-leg type bionic tail fin fixing rods Fixed with the swimmer's legs or feet.
  • the bionic tail fin fixing rod binding structure comprises a bionic tail fin fixing rod binding body, a bionic tail fin fixing rod binding elastic band, a bionic tail fin fixing rod binding cushion pad, a bionic tail fin fixing rod binding cushion pad wrapping flannel, and the bionic tail fin fixing rod
  • the manner of securing or binding to at least one of the swimmer's lower legs includes, but is not limited to, a bundled fixation or a lower extremity exoskeleton wearable fixation.
  • the docking buckles of the bionic tail fin fixing rods and the elastic bands include, but are not limited to, ordinary belt buckles, pair of fasteners that can be attracted to each other, or pairs of electromagnets that can be attracted to each other.
  • the bionic tail fin fixing rod of the single rod is arranged between the two calves of the swimmer, and then bundled horizontally with more than one elastic belt or wide belt, and finally with a hook or a buckle
  • the tightness lock; the bionic tail fin fixing rod, the elastic band or the wide belt is in contact with the swimmer's lower leg, and the cushion is made of a soft cushioning pad.
  • the material used for making the cushion pad includes but is not limited to silicone rubber and soft rubber.
  • the bionic tail fin fixing rod on the bionic tail fin fixing rod is bound to the body.
  • the electromagnets are coupled to each other, and the opening and closing of the electromagnets are controlled by the attraction or repulsive force of the electromagnetic force. Accordingly, the electromagnet suction device is connected with a suction button, a separation button and a matching device for controlling the opening or opening of each binder structure.
  • each binder structure can also be padded with a bionic tail fin fixing rod binding cushion pad, a bionic tail fin fixing rod Bundle the cushioning pad to wrap the flannel to prevent possible damage and increased comfort in the long-term binding of the legs.
  • the manner in which the bionic tail fin fixing rod is fixed or bound to at least one calf of the swimmer includes, but is not limited to, a binding fixing manner or a lower limb exoskeleton wearing fixing manner.
  • the bionic tail fin fixing rod binding structure is replaced with the existing lower limb exoskeleton wearing fixing structure, and the lower limb exoskeleton wearing fixing structure adopts a rigid body and a lined flexible pad structure, and the material for making the rigid body includes but Not limited to plastics, fiberglass, carbon fiber, steel, aluminum alloys, titanium alloys, copper alloys, glass or ceramics, materials for making flexible liners include, but are not limited to, silicone, soft rubber, sponge or soft plastic.
  • the pressurizing device is replaced with an automatic pumping device, which includes an inflating fluid control circuit board, a pumping inflating power source, a pumping inflator pump, and an inflating fluid pipeline.
  • an automatic pumping device which includes an inflating fluid control circuit board, a pumping inflating power source, a pumping inflator pump, and an inflating fluid pipeline.
  • the automatic pumping device is a pressurizing device and a pressure reducing device.
  • the automatic pumping device further includes a pumping liquid sensor, a pressure limiting valve, a filter, and a gas-liquid multi-way electromagnetic valve
  • the pumping liquid sensor includes, but is not limited to, detecting whether the swimming and diving suit is above the water surface or a water-inducing sensor below the water surface or a pressure sensor for detecting a water pressure value in the vicinity of the swimming diving suit
  • the pumping fluid control circuit board comprising a printed circuit board, a resistor, a capacitor, an integrated circuit chip, and the pumping fluid
  • the control power source includes, but is not limited to, an electric motor driven electric motor and a small internal combustion engine, which supplies power to the pumping inflating pump, drives the pumping inflating pump to extract or fill the gas into the air chamber or fill or withdraw liquid into the liquid chamber to prevent water.
  • each valve of the multi-channel gas-liquid valve is respectively connected to each gas chamber and liquid chamber and controlled by an integrated circuit chip of the pumping control circuit board
  • the on-off command is used to realize separate pumping and filling of each gas chamber and liquid chamber; the gas chamber and the liquid chamber can share one chamber, and the corresponding pumping pump is a gas and liquid pump.
  • the pump can be operated in reverse, and all the gas or liquid in the air chamber or liquid chamber can be taken out for storage.
  • the pumping liquid control circuit board of the automatic pumping device includes an intelligent control chip, and the smart control chip internally stores a preset program, including but not limited to a continuous cruise mode program, and a floating program. a mode program, a dive mode program, a self-learning and memory mode program or a manual adjustment mode program, wherein each program calculates a corresponding output value according to an input value input by the water-inducing sensor or the pressure sensor, by means of the pumping
  • the inflator power source drives the pumping pump, which is distributed throughout the body of the swimmer according to the different requirements of the continuous cruise mode program, the floating mode program, the dive mode program, the self-learning and memory mode program or the manual adjustment mode program.
  • the gas in the gas chamber is quantitatively extracted or injected into the liquid chamber to set a predetermined amount of liquid, so that the posture of the swimmer in the water is adapted to continuously cruise, float or dive;
  • the self-learning mode program refers to the intelligent control chip according to the swimmer
  • the relationship between the buoyancy value obtained by different body parts in water and the efficiency of swimming travel Adjust and optimize the amount of gas or liquid to be injected into the air chamber or liquid chamber of each part of the body during the swimmer's parade, and obtain the optimal combination of experience values suitable for the cruiser to make the swimmer himself
  • the body posture with the highest efficiency can be obtained, and the relevant experience values can be continuously optimized during the future system upgrade process, and the gas can be automatically adjusted according to the swimmer's swimming posture and the dive depth.
  • the air and liquid ratio in the room realizes the automatic control management of the cruising and dive mode and the dive depth alarm function;
  • the manual adjustment mode program refers to the manual operation button of the swimmer controlling the circuit board by connecting the inflator, and the manual operation increases, Reducing the amount of gas or liquid drawn into the air chamber or filling the liquid chamber by the automatic pumping device;
  • the automatic pumping device may be disposed inside a hollow cavity of the bionic tail fin fixing rod or between the swimmer's legs .
  • the pumping liquid control circuit board of the automatic pumping liquid device comprises an intelligent control chip and can be connected with the mobile phone through wireless or wired manner, and realizes mobile phone voice control of the cruise and dive mode management functions by developing a corresponding mobile phone APP application software. Operation or remote operation; when using the remote control mode, the control keys of the pressurization mode, cruise mode, dive mode, wireless communication, temperature setting, pressure setting or boosting speed setting are set on both sides of the hip joint.
  • the handcuffs are near the point of attraction, and a voice prompt and a reconfirmation prompt are attached when each control button is pressed to avoid erroneous operation.
  • the additional oxygen cylinder controls a pneumatic solenoid valve connected to the oxygen cylinder through a pressure control circuit board by adding a separate air pipe coupled to the air chamber of the automatic pumping device and a corresponding air circuit solenoid valve. Turning on and off, the function of inflating the air chamber of the automatic pumping device is realized underwater; the air chamber can also add an independent air tube and a corresponding air circuit solenoid valve connected with the breathing tube suction passage. The on-off and off of the pneumatic solenoid valve connected to the breathing tube suction passage are controlled by the pressure control circuit board to realize emergency breathing oxygen supply under sudden underwater anoxic conditions.
  • the swimming diving dual-use kit further includes a cooling device, a heating device, a water temperature sensor, a body temperature sensor and a corresponding control circuit board, and automatically adjusts the swimmer's body temperature according to a preset temperature to meet the swimmer's low temperature environment and summer in winter.
  • the need for swimming and diving in a high temperature environment is not limited.
  • the breathing tube is replaced with an integrated fixed shape rigid structure that is combined with the fixed shape cover body, that is, the breathing tube is a fixed shape structure that cannot be bent and integrated with the fixed shape cover body, and protrudes during cruising. Above the water surface, the breathing tube becomes part of the spatial pattern of the low flow resistance of the fixed shape cover.
  • the fixed shape cover, the flexible swimming trunk, and the bionic tail fin are all placed in a specially designed streamlined boat-shaped box, and the streamlined boat-shaped box is provided with a mounting hole for fixing the vehicle of the SUV utility vehicle.
  • the streamlined boat shaped boxes Above the roof rack, at least one of the streamlined boat shaped boxes is placed longitudinally in the roof of an SUV utility vehicle.
  • the fixed shape cover is the upper swimwear; the flexible swimming trunk is the lower swimwear;
  • the flashlight is a pocket flashlight;
  • the radar probe is a pocket radar;
  • the sonar probe is a pocket detecting sonar;
  • the bionic tail fin sealing ring is an annular sealing ring;
  • the independent mask is an emergency breathing window; Breathing joint tube;
  • fixed shape cover body joint interface is the swimwear waterproof zipper joint interface;
  • flexible swimwear joint interface is the swimwear waterproof zipper joint interface;
  • the crescent moon type is bud shape.
  • the swimming and diving dual-purpose suit of the invention has low forward resistance, thereby helping the swimmer to improve the speed of swimming and effectively reducing the fatigue caused by long-term swimming, thereby achieving the purpose of long-distance high-speed cruising.
  • the breathing tube of the present invention automatically falls backwards when the swimmer sneaked into the water, pressed against the swimmer's back or chest and abdomen and closed the inlet of the inhalation passage, reducing the resistance to travel and preventing the swimmer from drowning; When the person returns to the surface above the water, he will automatically return to the erect state to ensure that the swimmer can breathe smoothly.
  • the cushioning device and the small airbag at the front end of the fixed shape cover of the present invention have a buffering function, and when the swimmer collides with the front obstacle, the swimmer's head, neck and spine can be effectively protected, and the impact is brought. The damage is minimized.
  • the breathing tube or the breathing connecting tube of the present invention is connected with an emergency feeding device, which generates oxygen in a chemical reaction manner or a physical reaction manner in an emergency situation to supply the swimmer with oxygen in an emergency situation. need.
  • the swimming and diving dual-purpose suit of the present invention has a certain protective function for the swimmer's head and trunk when encountering a large predator attack in the water.
  • FIG. 1 is a schematic structural view of a fixed shape cover, a flexible swimming trunk, and a bionic tail fin which can be combined together according to the present invention.
  • FIG. 2 is a schematic view showing the structure of a fixed shape cover of the present invention.
  • FIG. 3 is a schematic structural view of a flexible swimming trunk of the present invention.
  • FIG. 4 is a schematic structural view of a bionic tail fin of the present invention.
  • Fig. 5 is a structural schematic view showing the spatial shape of the bionic tail fin fixing rod of the present invention in a shape of a line.
  • Fig. 6 is a structural schematic view showing the spatial shape of the bionic tail fin fixing rod of the present invention in an L shape.
  • Fig. 7 is a structural schematic view showing the zigzag shape of the bionic tail fin fixing rod of the present invention.
  • FIG. 8 is a schematic structural view of a fixed shape cover, a flexible swimming trunk, and a bionic tail fin which have been combined together according to the present invention.
  • Fig. 9 is a schematic view showing the structure of the breathing tube on the fixed shape cover of the present invention which is held in an upright state by the elastic element of the breathing tube.
  • the fixed shape cover 1 belongs to the fixed shape cover 1 is: 101, fixed shape cover body; 102, buffer device; 103, breathing tube; 104, breathing tube hinge structure; 105, transparent window; 106, independent mask; 107, flashlight; 108, the arm extends out of the mouth; 109, the fixed shape cover body interface; 110, the breathing tube elastic element.
  • 201 a flexible swimming trunk body
  • 202 a flexible swimming trunk joint interface
  • 203 a bionic tail fin sealing ring.
  • bionic tail fin 3 301, bionic tail fin body; 302, bionic tail fin fixed rod; 303, bionic tail fin fixed rod binding structure; 30301, bionic tail fin fixed rod binding body; 30302, bionic tail fin fixed rod binding elastic band; 30303, bionic tail fin fixing rod binding buffer pad; 30304, bionic tail fin fixing rod binding cushion pad wrapped flannel.
  • the swimming diving dual-purpose suit of the present invention comprises a fixed shape cover body 1, a flexible swimming trunk 2, a bionic tail fin 3, a fixed shape cover body 1 and a flexible swimming trunk 2 which have been combined.
  • the torso portion is coupled into an integral structure; the bionic tail fins 3 are fixed between the swimmer's legs and project rearwardly from the end of the flexible swimming trunks 2.
  • a swimming diving suit of the present invention comprises a fixed shape cover 1, a flexible swimming trunk 2, and a bionic tail fin 3 which can be combined.
  • the fixed shape cover 1 of the present invention comprises a fixed shape cover body 101, a cushioning device 102, a breathing tube 103, a breathing tube hinge structure 104, a transparent window 105, a separate mask 106, a flashlight 107, and an arm extension.
  • the fixed shape cover body 101 is the upper body of the swimsuit.
  • the fixed shape cover body joint interface 109 is an upper swimwear waterproof zipper joint interface.
  • the flexible swimming trunk 2 of the present invention comprises a flexible swimming trunk body 201, a flexible swimming trunk joint interface 202, and a bionic tail fin sealing ring 203.
  • the flexible swimming trunk body 201 is the lower body of the swimsuit.
  • the flexible swimming trunk joint interface 202 is a waterproof zipper joint interface of the swimsuit.
  • the bionic tail fin 3 of the present invention includes a bionic tail fin body 301, a bionic tail fin fixing rod 302, a bionic tail fin fixing rod binding structure 303, and a bionic tail fin fixing rod binding structure 303, including a bionic tail fin fixing rod binding body.
  • a bionic tail fin fixing rod binding elastic band 30302 bionic tail fin fixing rod binding cushion pad 30303, bionic tail fin fixing rod binding cushion pad wrapping flannel 30304.
  • the bionic tail fin fixing rods 302 of the present invention are respectively formed into a space shape of an inline shape, an L shape, and a zigzag shape.
  • the swimming diving dual-purpose suit of the present invention comprises a fixed shape cover body 1, a flexible swimming trunk 2, a bionic tail fin 3, a fixed shape cover body 1 and a flexible swimming trunk 2 which have been combined.
  • the torso portion is coupled into an integral structure; the bionic tail fins 3 are fixed between the swimmer's legs and project rearwardly from the end of the flexible swimming trunks 2.
  • the fixed shape cover 1 of the present invention including the breathing tube elastic member 110; the breathing tube 103 of the fixed shape cover member 1 is maintained in an upright state by the breathing tube elastic member 110.
  • a swimming diving suit of the present invention mainly comprises a fixed shape cover 1, a flexible swimming trunk 2, and a bionic tail fin 3 which have been combined.
  • the fixed shape cover 1 covers the swimmer from the head to the trunk
  • the flexible swimwear 2 covers the swimmer from the trunk to the foot
  • the fixed shape cover joint interface 109 and the flexible swimming ball of the fixed shape cover 1 are fixed.
  • the flexible swim trunk joint interface 202 of the pants 2, the fixed shape cover 1 and the flexible swim trunk 2 are coupled in a unitary structure at the swimmer's torso.
  • Embodiment 2 As shown in Fig. 9, the fixed shape cover 1 of the present invention including the breathing tube elastic member 110; the breathing tube 103 of the fixed shape cover 1 is maintained in an upright state by the breathing tube elastic member 110.
  • the fixed shape cover 1 is covered with a breathing tube 103 on the front and rear sides of the swimmer's back or chest and abdomen, and the breathing tube 103 is hinged to the fixed shape cover through the breathing tube hinge structure 104. on.
  • the breathing tube 103 of the back When the swimmer adopts the prone swimming posture, the breathing tube 103 of the back is placed in a vertical state, and the breathing tube 103 of the chest and abdomen is pressed and gathered to be completely pressed against the surface of the fixed shape cover 1; when the swimmer adopts the supine type In the swimming posture, the breathing tube 103 of the chest and abdomen is placed in a vertical state, and the breathing tube 103 on the back is pressed and gathered to be completely pressed against the surface of the fixed shape cover 1.
  • the back and chest and abdomen breathing tubes 103 can all fall backwards under the pressure of the swimmer's fingers until the nozzle of the breathing tube 103 is completely pressed against the surface of the fixed shape cover 1 and the inhalation
  • the float type water stop valve of the passage opening is tightly closed, and the surface of the corresponding fixed shape cover 1 is designed to accommodate the longitudinal depression of the breathing tube 103 to sink the breathing tube 103 therein to reduce the resistance;
  • a push-type elastic lock pin is provided near the hinge point of the breathing tube 103 of the chest and abdomen, and the push-type elastic lock pin can be locked when the nozzle of the breathing tube 103 is completely pressed against the surface of the fixed shape cover 1 , and the swimmer again When the breathing tube 103 in the locked state is pressed, the push-type elastic locking pin is automatically unlocked, and the breathing tube 103 returns to the vertical state under the elastic force of the breathing tube elastic member 110.
  • the bionic tail fins 3 are replaced by a double-legged single with an ankle fixing rod.
  • the ankle fixing rod is fixed between the swimmer's legs or the feet
  • the two-legged single shackles include, but are not limited to, a common two-legged single cymbal or a bionic two-legged single cymbal worn by both feet; for example
  • the pair of bionic tail fins 3 are replaced by two-legged double-twisted rods each having an ankle-fixing rod fixed to the swimmer's legs or feet, respectively.
  • the lower section of the flexible swimming trunk 2 of the swimming diving suit of the present invention has a double cylinder shape to accommodate respectively.
  • the left and right legs of the swimmer, and the ends of each of the cylinders are reduced to a bionic tail fin seal 203, and each of the bionic fin seals each wears one of the ankle-fixing rods; any conventional knowledge in the art Without departing from the present invention
  • the range of operation characteristics of the present invention using the techniques disclosed content changes made locally or modified equivalent embodiments, and features of the invention without departing from the content, it falls within the scope of the technical features of the present invention.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Ocean & Marine Engineering (AREA)
  • Professional, Industrial, Or Sporting Protective Garments (AREA)

Abstract

L'invention concerne une combinaison de natation et de plongée, comprenant un corps de couverture (1) d'une forme fixe et un maillot de bain souple (2). Le corps de couverture (1) de forme fixe enveloppe un nageur depuis une partie de tête jusqu'à une partie de tronc. Le maillot de bain souple (2) enveloppe le nageur depuis la partie de tronc jusqu'à une partie de pied. Le corps de couverture (1) de forme fixe est relié au maillot de bain souple (2) sur la partie de tronc du nageur pour former une structure intégrée. La combinaison peut être utilisée à la fois pour nager et pour plonger, et peut protéger le nageur ; et elle peut également permettre au nageur d'exercer son aptitude.
PCT/CN2018/085759 2017-05-10 2018-05-05 Combinaison de natation et de plongée WO2018205893A1 (fr)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
CN201710324249.1A CN106956756B (zh) 2017-05-10 2017-05-10 一种游泳潜水两用装备
CN201710324249.1 2017-05-10
CN201711133094.XA CN107745791A (zh) 2017-11-15 2017-11-15 一种用于游泳潜水的巡游套装
CN201711133094.X 2017-11-15

Publications (1)

Publication Number Publication Date
WO2018205893A1 true WO2018205893A1 (fr) 2018-11-15

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PCT/CN2018/085759 WO2018205893A1 (fr) 2017-05-10 2018-05-05 Combinaison de natation et de plongée

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Country Link
WO (1) WO2018205893A1 (fr)

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20030188368A1 (en) * 2002-04-09 2003-10-09 Stinton Robert T. Garment with releasable water-tight seal for neck and limbs
US20030213041A1 (en) * 2002-05-15 2003-11-20 Oceanworks International, Inc. Rotary joint for diving suits
CN104417734A (zh) * 2013-09-06 2015-03-18 全椒县科源机电科技有限公司 盔甲式钢质潜水服
CN205707243U (zh) * 2016-04-28 2016-11-23 杨渤 一种全封闭回路供气潜水服
CN205738021U (zh) * 2016-07-02 2016-11-30 张广路 分体式胸腹部抗压潜水服
CN106956756A (zh) * 2017-05-10 2017-07-18 朱光 一种游泳潜水两用装备
CN107745791A (zh) * 2017-11-15 2018-03-02 朱光 一种用于游泳潜水的巡游套装

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20030188368A1 (en) * 2002-04-09 2003-10-09 Stinton Robert T. Garment with releasable water-tight seal for neck and limbs
US20030213041A1 (en) * 2002-05-15 2003-11-20 Oceanworks International, Inc. Rotary joint for diving suits
CN104417734A (zh) * 2013-09-06 2015-03-18 全椒县科源机电科技有限公司 盔甲式钢质潜水服
CN205707243U (zh) * 2016-04-28 2016-11-23 杨渤 一种全封闭回路供气潜水服
CN205738021U (zh) * 2016-07-02 2016-11-30 张广路 分体式胸腹部抗压潜水服
CN106956756A (zh) * 2017-05-10 2017-07-18 朱光 一种游泳潜水两用装备
CN107745791A (zh) * 2017-11-15 2018-03-02 朱光 一种用于游泳潜水的巡游套装

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